. 2022 Feb 23;15(5):1680.

doi: 10.3390/ma15051680.

Sunlike White Light-Emitting Diodes Based on Rare-Earth-Free Luminescent Materials

Amador Menéndez-Velázquez¹, Dolores Morales¹, Ana Belén García-Delgado¹

Affiliations

PMID: 35268906
PMCID: PMC8911033
DOI: 10.3390/ma15051680

Sunlike White Light-Emitting Diodes Based on Rare-Earth-Free Luminescent Materials

Amador Menéndez-Velázquez et al. Materials (Basel). 2022.

. 2022 Feb 23;15(5):1680.

doi: 10.3390/ma15051680.

Authors

Amador Menéndez-Velázquez¹, Dolores Morales¹, Ana Belén García-Delgado¹

Affiliation

¹ Photoactive Materials Research Unit, IDONIAL Technology Center, 33417 Avilés, Spain.

PMID: 35268906
PMCID: PMC8911033
DOI: 10.3390/ma15051680

Abstract

Solid-state lighting (SSL) sources based on light-emitting diodes represent the new generation of highly efficient illumination systems that significantly impact energy-saving. The development of white light-emitting diodes (WLEDs) with a combination of high color rendering index (CRI) and high deep-red color rendering R₉ is an important challenge in the field of solid-state lighting. On the other hand, most WLEDs use rare-earth inorganic luminescent materials. The annual demand for rare-earth metals has doubled to 125,000 tons in 15 years, and the demand is projected to reach 315,000 tons in 2030. The explosion in demand for these materials, combined with a monopolistic supply source, represents a real risk for the development of WLEDs in the next few years. Luminescent organic materials are a relevant and promising alternative. Here, we report a WLED with a very high CRI of 95.7 and R₉ of 78.7, obtained using a combination of a blue LED chip (excitation source) and two organic luminescent dyes (Coumarin 6 and Lumogen Red) acting as spectral converters in a multilayer remote phosphor configuration. To the best of our knowledge, this is the first rare-earth-free WLED with such high values of CRI and R₉.

Keywords: color rendering index (CRI); luminescent organic materials; rare-earth-free luminescent materials; solid-state lighting (SSL); spectral converters; white light-emitting diode (WLED).

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Conflict of interest statement

The authors declare no conflict of interest.

Figures

**Figure 1**
Spectral power distribution (SPD) chart of the selected blue LED.

**Figure 2**
Photoluminescent excitation (a) and emission (b) spectra of Coumarin 6 green-emitting converter embedded in a PMMA matrix.

**Figure 3**
Three-dimensional photoluminescent spectra under the excitation wavelengths from 410 nm to 500 nm.

**Figure 4**
Photoluminescent excitation (a) and emission (b) spectra of Lumogen Red red-emitting converter embedded in a PMMA matrix.

**Figure 5**
Three-dimensional photoluminescent spectra under the excitation wavelengths from 410 nm to 740 nm.

**Figure 6**
Spectral power distribution (SPD) chart (a) and CRI points (b) of WLED-2.

**Figure 7**
Spectral power distribution (SPD) chart (a) and CRI points (b) of WLED-11.

**Figure 8**
Spectral power distribution (SPD) chart (a) and CRI points (b) of WLED-11-I.

**Figure 9**
(a) Photoluminescent red-emitting and green-emitting converters embedded in a PMMA matrix and coated on glass under exposure to blue light. (b) White light emitted by the WLED-11-I device.

See this image and copyright information in PMC

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Sunlike White Light-Emitting Diodes Based on Rare-Earth-Free Luminescent Materials

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Sunlike White Light-Emitting Diodes Based on Rare-Earth-Free Luminescent Materials

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